CN219051172U - Automatic feeding device is used in detergent production - Google Patents

Abstract

The utility model discloses an automatic feeding device for detergent production, which comprises a mixing barrel, wherein a powder feeding assembly and a liquid feeding pipe are respectively arranged at the upper end of the mixing barrel, the powder feeding assembly comprises a feeding hopper, a material distributing cone is arranged between the feeding hoppers through bolts in the mixing barrel, and a discharging cavity is formed between the material distributing cone and the feeding hopper. When the device is used, when liquid raw materials is added, through the cooperation of electronic metering pump and second automatically controlled valve, realize to the interior quantitative addition liquid of blending tank, when adding the powdery material, through discharging into the powdery material to the feed inlet, at the in-process of discharging into, the material in the weighing sensor symmetry heavy box weighs, reach the within range of setting when the material, the automatically controlled valve is opened, the material alright fall into on the feed cone, the material alright evenly scatter to the blending tank inside along the discharge chamber this moment, during later stage mixing, the phenomenon of piling up together is difficult to appear, holistic mixing effect has been guaranteed.

Description

Automatic feeding device is used in detergent production

Technical Field

The utility model belongs to the technical field of detergent processing, and particularly relates to an automatic feeding device for detergent production.

Background

The liquid detergent is a common daily article, and is prepared by stirring and mixing liquid added with various effective material components.

In the Chinese patent with the application number of 201820035236.2, an automatic feeding device for detergent production is specifically disclosed, and the automatic feeding device comprises a feeding pipe, a feeding pipe electromagnetic valve and a photoelectric liquid level sensor. The feeding pipe is beneficial to stabilizing the liquid level in the charging bucket, penetrating into the bottom of the charging bucket, increasing the water outlet surface and the water outlet direction, enabling the water flow at the bottom of the charging bucket to influence the stability of the liquid level as small as possible, ensuring the measurement accuracy of the photoelectric liquid level sensor on the solution amount in the charging bucket, enabling the proportion of various solutions to be more accurate and enabling the washing effect of the prepared detergent to be better.

However, in the process of detergent production, a part of the additive is powdery, the powdery additive is difficult to quantitatively add in the mode, and at present, when powdery materials are added, the materials are directly poured into a mixing tank, and the powdery materials are accumulated together to easily form flocculent pimples, so that the production effect of the detergent is affected.

In view of this, the application proposes an automatic material feeding device for detergent production.

Disclosure of Invention

The utility model aims at: in order to solve the problems, an automatic feeding device for detergent production is provided.

The technical scheme adopted by the utility model is as follows: the automatic feeding device for the production of the detergents comprises a mixing barrel, wherein a powder feeding assembly and a liquid feeding pipe are respectively arranged at the upper end of the mixing barrel;

the powder feeding assembly comprises a feeding hopper, wherein a material dividing cone is arranged between the feeding hoppers through bolts, and a discharging cavity is formed between the material dividing cone and the feeding hopper;

the upper end of the charging hopper is communicated with a metering shell, and a weighing box is arranged in the metering shell.

In a preferred embodiment, the weighing sensors are mounted on the inner walls of the two sides of the metering shell, and the pressing plates are mounted at the two ends of the weighing box and are pressed on the weighing sensors.

In a preferred embodiment, the upper end of the metering shell is communicated with a feed inlet, the bottom end of the weighing box is communicated with a discharge outlet with an electric control valve, and the discharge outlet is positioned right above the material dividing cone.

In a preferred embodiment, the whole material dividing cone is narrow in the upper part and wide in the lower part, the material dividing cone and the material feeding hopper are made of aluminum alloy materials, a cavity is reserved in the material dividing cone, and a discharging cavity is formed in the upper wall of the mixing barrel right below the discharging cavity.

In a preferred embodiment, the whole of the discharging cavity is circular, a plurality of connecting plates for connecting the material dividing cones are connected between the discharging cavities, and the charging hopper is arranged on the mixing barrel through a fixing screw.

In a preferred embodiment, the liquid feeding tube is connected with an electronic metering pump and a second electrically controlled valve.

Advantageous effects

Compared with the prior art, the utility model has the advantages that:

1. according to the utility model, quantitative feeding of powdery materials can be realized through the cooperation of the weighing sensor and the electric control valve, and quantitative feeding of liquid can be realized through the cooperation of the electronic metering pump and the second electric control valve, so that the whole device is suitable for quantitative feeding operation of powdery and liquid, and the production effect of washing liquid can be ensured.

2. In the utility model, when powder is discharged, the materials fall onto the material distributing cone, and then the materials can be uniformly dispersed into the mixing barrel along the discharging cavity, so that the phenomenon of piling up is not easy to occur during later mixing, and the integral mixing effect is ensured.

Drawings

FIG. 1 is a schematic perspective view of the present utility model assembled with a mixing drum;

fig. 2 is a schematic cross-sectional plan view of a powder feeding assembly of the present utility model.

The marks in the figure: 1-mixing barrel, 2-electronic metering pump, 3-liquid charging pipe, 4-second electrically controlled valve, 5-powder charging component, 50-electrically controlled valve, 51-feed inlet, 52-metering shell, 53-weighing sensor, 54-weighing box, 55-charging hopper, 56-discharging cavity, 57-cavity, 59-separating cone.

Detailed Description

The utility model will be further described with reference to specific embodiments in the drawings.

Referring to fig. 1-2, an automatic feeding device for detergent production comprises a mixing barrel 1, wherein a powder feeding component 5 and a liquid feeding pipe 3 are respectively arranged at the upper end of the mixing barrel 1, the powder feeding component 5 comprises a feeding hopper 55, a distributing cone 59 is arranged between the feeding hopper 55 through bolts in the mixing barrel 1, a discharging cavity 56 is formed between the distributing cone 59 and the feeding hopper 55, materials can be uniformly dispersed along the discharging cavity 56 into the mixing barrel 1, flocculent 'pimples' are not easy to form during later mixing, and the mixing effect is improved.

The upper end of the hopper 55 is communicated with the metering shell 52, the metering shell 52 is internally provided with a weighing box 54, the inner walls of the two sides of the metering shell 52 are provided with weighing sensors 53, the two ends of the weighing box 54 are provided with pressing plates, the pressing plates are pressed on the weighing sensors 53, the upper end of the metering shell 52 is communicated with a feed inlet 51, the bottom end of the weighing box 54 is communicated with a discharge outlet with an electric control valve 50, the discharge outlet is positioned right above a material distributing cone 59, when powdery materials are added, the powdery materials are discharged into the feed inlet 51, in the discharging process, the weighing sensors 53 weigh the materials in the weighing box 54, after the materials reach the set range, the electric control valve 50 is opened, the materials can be discharged, and the function of quantitatively adding the powdery materials is realized.

Wherein, the upper end of the feed inlet 51 can be matched with a screw feeder, and the automatic feeding operation is realized through the screw feeder.

Referring to fig. 2, the material dividing cone 59 is integrally narrow at the upper part and wide at the lower part, the material dividing cone 59 and the charging hopper 55 are made of aluminum alloy materials, a cavity 57 is reserved in the material dividing cone 59, a discharging cavity is formed in the upper wall of the mixing drum 1 right below the discharging cavity 56, materials can be dispersed along the shape of the material dividing cone 59 to the outer end, and the situation that the materials are stacked in the mixing drum is reduced.

In this embodiment, the whole material discharging cavity is annular, is connected with a plurality of connecting plates 6 that are used for connecting the branch material awl 59 between the material discharging cavity, divides the material awl 59 to pass through the bolt locking at connecting plate 6 promptly, and the loading hopper 55 passes through the fixed screw to be installed on mixing drum 1 for when discharging the powdery material, the material can be annular even discharge to mixing drum 1 in, can improve the mixed effect at the back.

Referring to fig. 1, an electronic metering pump 2 and a second electronic control valve 4 are connected to a liquid feeding pipe 3, and quantitative liquid feeding into a mixing drum 1 is realized through the cooperation of the electronic metering pump 2 and the second electronic control valve 4.

Wherein the end of the liquid charging pipe 3 is connected with a corresponding liquid storage tank.

The electronic metering pump 2, the second electronic control valve 4, the weighing sensor 53 and the electronic control valve 50 can be electrically connected with an external PLC end, and the whole automatic feeding operation of the PLC control device is realized.

It should be noted that the electrical connection is a connection commonly used in the prior art, and will not be described in detail.

When the device is used, when liquid raw materials is added, through the cooperation of electronic metering pump 2 and second automatically controlled valve 4, realize to the interior quantitative addition liquid of mixing drum 1, when adding the powdery material, through the powdery material of being discharged into to feed inlet 51, in the in-process of discharging, weigh the material in the box 54 of weighing through weighing sensor 53, reach the within range of setting when the material, automatically controlled valve 50 is opened, the material alright fall into on the feed divider 59, the material alright evenly scatter to mixing drum 1 inside along discharge chamber 56 this moment, during the later stage mix, the phenomenon of piling up is difficult to appear, holistic mixing effect has been guaranteed.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that modifications and improvements can be made by those skilled in the art without departing from the structure of the present utility model, and these do not affect the effect of the implementation of the present utility model and the utility of the patent.

Claims (6)

1. The utility model provides an automatic feeding device for detergent production, includes mixing drum (1), its characterized in that: the upper end of the mixing barrel (1) is provided with a powder feeding component (5) and a liquid feeding pipe (3) respectively;

the powder feeding assembly (5) comprises a feeding hopper (55), the mixing barrel (1) is provided with a material dividing cone (59) through bolts, and a discharging cavity (56) is formed between the material dividing cone (59) and the feeding hopper (55);

the upper end of the charging hopper (55) is communicated with the metering shell (52), and a weighing box (54) is arranged in the metering shell (52).

2. An automatic feeding device for detergent manufacture as claimed in claim 1, wherein: and weighing sensors (53) are arranged on the inner walls of the two sides of the metering shell (52), pressing plates are arranged at the two ends of the weighing box (54), and the pressing plates are pressed on the weighing sensors (53).

3. An automatic feeding device for detergent manufacture as claimed in claim 2, wherein: the upper end of the metering shell (52) is communicated with a feed inlet (51), the bottom end of the weighing box (54) is communicated with a discharge outlet with an electric control valve (50), and the discharge outlet is positioned right above the material dividing cone (59).

4. An automatic feeding device for detergent manufacture as claimed in claim 1, wherein: the material dividing cone (59) is integrally narrow at the upper part and wide at the lower part, the material dividing cone (59) and the material feeding hopper (55) are made of aluminum alloy materials, a cavity (57) is reserved in the material dividing cone (59), and a discharging cavity is formed in the upper wall of the mixing barrel (1) right below the discharging cavity (56).

5. An automatic feeding device for detergent manufacture as claimed in claim 4, wherein: the whole ring-shaped discharging cavity is formed, a plurality of connecting plates (6) used for connecting the material separating cones (59) are connected between the discharging cavities, and the charging hopper (55) is installed on the mixing barrel (1) through a fixing screw.

6. An automatic feeding device for detergent manufacture as claimed in claim 1, wherein: the liquid feeding pipe (3) is connected with an electronic metering pump (2) and a second electric control valve (4).

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